Engineering d-band center of cobalt active sites via dual coordination with nitrogen-doped carbon nanotube and Ti3C2Tx MXene toward electrocatalytic oxygen reduction for H2O2 production
Author:
Funder
National Natural Science Foundation of China
Fundamental Research Funds for the Central Universities
Publisher
Elsevier BV
Reference46 articles.
1. Metal single-site catalyst design for electrocatalytic production of hydrogen peroxide at industrial-relevant currents;Cao;Nat. Commun.,2023
2. Supramolecular tuning of supported metal phthalocyanine catalysts for hydrogen peroxide electrosynthesis;Lee;Nat. Catal.,2023
3. Direct insights into the role of epoxy groups on cobalt sites for acidic H2O2 production;Zhang;Nat. Commun.,2020
4. Identification of the highly active Co-N4 coordination motif for selective oxygen reduction to hydrogen peroxide;Chen;J. Am. Chem. Soc.,2022
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1. Atomic Confinement Empowered CoZn Dual‐Single‐Atom Nanotubes for H2O2 Production in Sequential Dual‐Cathode Electro‐Fenton Process;Advanced Materials;2024-08-30
2. Mesoporous Hollow Carbon Sphere-Embedded MXene Architectures Decorated with Ultrafine Rh Nanocrystals toward Methanol Electrooxidation;Inorganic Chemistry;2024-08-28
3. 3D N-Ti3C2Tx/Co/N-CNT composites as a sodiophilic framework for dendrite-free sodium metal anodes;Journal of Materials Chemistry C;2024
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